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11X1 T06 04 point slope formula (2011)

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Nigel Simmons
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Point Slope Formula
Point Slope Formula y  y1  m  x  x1 
Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6)
Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m 3  2 10  5  2
Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 10  5  2
Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2
Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0
Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 5 y  x 4 4
Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 5 y  x 4 4 3 required m   4
Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 y  3    x  2 3 5 4 y  x 4 4 3 required m   4
Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 y  3    x  2 3 5 4 y  x 4 y  12  3 x  6 4 4 3 3x  4 y  6  0 required m   4
Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 OR y  3    x  2 3 5 4 y  x 4 y  12  3 x  6 4 4 3 3x  4 y  6  0 required m   4
Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 OR 3x  4 y  k  0 y  3    x  2 3 5 4 y  x 4 y  12  3 x  6 4 4 3 3x  4 y  6  0 required m   4
Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 OR 3x  4 y  k  0 y  3    x  2 3 y  x 5 4  2, 3 : 3  2   4  3  k  0 4 4 4 y  12  3 x  6 3 3x  4 y  6  0 required m   4
Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 OR 3x  4 y  k  0 y  3    x  2 3 y  x 5 4  2, 3 : 3  2   4  3  k  0 4 y  12  3 x  6 4 4 6  k  0 3x  4 y  6  0 required m   3 k 6 4
Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 OR 3x  4 y  k  0 y  3    x  2 3 y  x 5 4  2, 3 : 3  2   4  3  k  0 4 y  12  3 x  6 4 4 6  k  0 3x  4 y  6  0 required m   3 k 6 4  3x  4 y  6  0
(ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0
(ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 9 6 y  x 4 4
(ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 9 6 y  x 4 4 4 required m   9
(ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 4 9 6 y  4    x  6 y  x 9 4 4 4 required m   9
(ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 4 9 6 y  4    x  6 y  x 9 4 4 9 y  36  4 x  24 4 required m   4 x  9 y  60  0 9
(ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4 9 6 y  4    x  6 y  x 9 4 4 9 y  36  4 x  24 4 required m   4 x  9 y  60  0 9
(ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 6 y  4    x  6 y  x 9 4 4 9 y  36  4 x  24 4 required m   4 x  9 y  60  0 9
(ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 y  x 6 y  4    x  6  6, 4  : 4  6   9  4   k  0 9 4 4 9 y  36  4 x  24 4 required m   4 x  9 y  60  0 9
(ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 y  x 6 y  4    x  6  6, 4  : 4  6   9  4   k  0 9 4 4 9 y  36  4 x  24 60  k  0 4 k  60 required m   4 x  9 y  60  0 9
(ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 y  x 6 y  4    x  6  6, 4  : 4  6   9  4   k  0 9 4 4 9 y  36  4 x  24 60  k  0 4 k  60 required m   4 x  9 y  60  0 9  4 x  9 y  60  0
(ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 y  x 6 y  4    x  6  6, 4  : 4  6   9  4   k  0 9 4 4 9 y  36  4 x  24 60  k  0 4 k  60 required m   4 x  9 y  60  0 9  4 x  9 y  60  0 To prove three lines (l, m, n) are concurrent;
(ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 y  x 6 y  4    x  6  6, 4  : 4  6   9  4   k  0 9 4 4 9 y  36  4 x  24 60  k  0 4 k  60 required m   4 x  9 y  60  0 9  4 x  9 y  60  0 To prove three lines (l, m, n) are concurrent; (i ) solve l and m simultaneously
(ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 y  x 6 y  4    x  6  6, 4  : 4  6   9  4   k  0 9 4 4 9 y  36  4 x  24 60  k  0 4 k  60 required m   4 x  9 y  60  0 9  4 x  9 y  60  0 To prove three lines (l, m, n) are concurrent; (i ) solve l and m simultaneously (ii ) substitute point of intersection into n
(ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 y  x 6 y  4    x  6  6, 4  : 4  6   9  4   k  0 9 4 4 9 y  36  4 x  24 60  k  0 4 k  60 required m   4 x  9 y  60  0 9  4 x  9 y  60  0 To prove three lines (l, m, n) are concurrent; (i ) solve l and m simultaneously (ii ) substitute point of intersection into n (iii ) if it satisfies the equation, then the lines are concurrent
(ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 y  x 6 y  4    x  6  6, 4  : 4  6   9  4   k  0 9 4 4 9 y  36  4 x  24 60  k  0 4 k  60 required m   4 x  9 y  60  0 9  4 x  9 y  60  0 To prove three lines (l, m, n) are concurrent; (i ) solve l and m simultaneously (ii ) substitute point of intersection into n (iii ) if it satisfies the equation, then the lines are concurrent Exercise 5D; 1e, 2c, 4abc (i), 5b, 7d, 9, 11, 13, 15, 17ab (i), 18ab (ii), 19, 22, 23c, 26*

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11 x1 t08 01 radian measure (13)
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X2 t03 02 hyperbola (2013)
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11 x1 t04 03 pythagorean trig identities (2013)
11 x1 t04 03 pythagorean trig identities (2013)11 x1 t04 03 pythagorean trig identities (2013)
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11 x1 t05 01 permutations i (2013)
11 x1 t05 01 permutations i (2013)11 x1 t05 01 permutations i (2013)
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X2 t03 04 parameters, hyperbola (2013)
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12 x1 t05 03 graphing inverse trig (2013)
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11 x1 t05 05 perpendicular distance (2013)
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11 x1 t05 05 perpendicular distance (2013)Nigel Simmons
 
11 x1 t04 02 angles of any magnitude (2013)
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11 x1 t09 06 quotient & reciprocal rules (2013)
11 x1 t09 06 quotient & reciprocal rules (2013)11 x1 t09 06 quotient & reciprocal rules (2013)
11 x1 t09 06 quotient & reciprocal rules (2013)Nigel Simmons
 
11 x1 t03 06 asymptotes (2013)
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Destacado (20)

11 x1 t09 02 first principles (2013)
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X2 t04 03 t results (2013)
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11 x1 t10 03 equations reducible to quadratics (2013)
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11 Ext1 t02 07 sketching graphs (13)
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11 Ext1 t02 07 sketching graphs (13)
 
11 x1 t09 04 chain rule (13)
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11 x1 t09 04 chain rule (13)
 
11 x1 t03 01 inequations & inequalities (2013)
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11 x1 t03 01 inequations & inequalities (2013)
 
12 x1 t07 03 simple harmonic motion (2013)
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X2 t07 03 addition, subtraction, multiplication & division (2013)
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11 x1 t08 01 radian measure (13)
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X2 t03 02 hyperbola (2013)
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X2 t03 02 hyperbola (2013)
 
11 x1 t04 03 pythagorean trig identities (2013)
11 x1 t04 03 pythagorean trig identities (2013)11 x1 t04 03 pythagorean trig identities (2013)
11 x1 t04 03 pythagorean trig identities (2013)
 
11 x1 t05 01 permutations i (2013)
11 x1 t05 01 permutations i (2013)11 x1 t05 01 permutations i (2013)
11 x1 t05 01 permutations i (2013)
 
X2 t03 04 parameters, hyperbola (2013)
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X2 t03 04 parameters, hyperbola (2013)
 
12 x1 t05 03 graphing inverse trig (2013)
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12 x1 t05 03 graphing inverse trig (2013)
 
11 x1 t05 05 perpendicular distance (2013)
11 x1 t05 05 perpendicular distance (2013)11 x1 t05 05 perpendicular distance (2013)
11 x1 t05 05 perpendicular distance (2013)
 
11 x1 t04 02 angles of any magnitude (2013)
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11 x1 t09 06 quotient & reciprocal rules (2013)
11 x1 t09 06 quotient & reciprocal rules (2013)11 x1 t09 06 quotient & reciprocal rules (2013)
11 x1 t09 06 quotient & reciprocal rules (2013)
 
11 x1 t03 06 asymptotes (2013)
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11 x1 t03 06 asymptotes (2013)
 
11X1 T14 09 mathematical induction 2 (2011)
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X2 T04 04 reduction formula (2011)
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11X1 T06 04 point slope formula (2011)

  • 2. Point Slope Formula y  y1  m  x  x1 
  • 3. Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6)
  • 4. Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m 3  2 10  5  2
  • 5. Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 10  5  2
  • 6. Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2
  • 7. Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0
  • 8. Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 5 y  x 4 4
  • 9. Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 5 y  x 4 4 3 required m   4
  • 10. Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 y  3    x  2 3 5 4 y  x 4 4 3 required m   4
  • 11. Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 y  3    x  2 3 5 4 y  x 4 y  12  3 x  6 4 4 3 3x  4 y  6  0 required m   4
  • 12. Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 OR y  3    x  2 3 5 4 y  x 4 y  12  3 x  6 4 4 3 3x  4 y  6  0 required m   4
  • 13. Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 OR 3x  4 y  k  0 y  3    x  2 3 5 4 y  x 4 y  12  3 x  6 4 4 3 3x  4 y  6  0 required m   4
  • 14. Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 OR 3x  4 y  k  0 y  3    x  2 3 y  x 5 4  2, 3 : 3  2   4  3  k  0 4 4 4 y  12  3 x  6 3 3x  4 y  6  0 required m   4
  • 15. Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 OR 3x  4 y  k  0 y  3    x  2 3 y  x 5 4  2, 3 : 3  2   4  3  k  0 4 y  12  3 x  6 4 4 6  k  0 3x  4 y  6  0 required m   3 k 6 4
  • 16. Point Slope Formula y  y1  m  x  x1  e.g. (i) Find the equation of the line passing through (–3,4) and (2,–6) 46 m y  4  2  x  3 3  2 y  4  2 x  6 10  2x  y  2  0 5  2 (ii) Find the equation of the line passing through (2,–3) and is parallel to 3x + 4y – 5 =0 3 OR 3x  4 y  k  0 y  3    x  2 3 y  x 5 4  2, 3 : 3  2   4  3  k  0 4 y  12  3 x  6 4 4 6  k  0 3x  4 y  6  0 required m   3 k 6 4  3x  4 y  6  0
  • 17. (ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0
  • 18. (ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 9 6 y  x 4 4
  • 19. (ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 9 6 y  x 4 4 4 required m   9
  • 20. (ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 4 9 6 y  4    x  6 y  x 9 4 4 4 required m   9
  • 21. (ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 4 9 6 y  4    x  6 y  x 9 4 4 9 y  36  4 x  24 4 required m   4 x  9 y  60  0 9
  • 22. (ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4 9 6 y  4    x  6 y  x 9 4 4 9 y  36  4 x  24 4 required m   4 x  9 y  60  0 9
  • 23. (ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 6 y  4    x  6 y  x 9 4 4 9 y  36  4 x  24 4 required m   4 x  9 y  60  0 9
  • 24. (ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 y  x 6 y  4    x  6  6, 4  : 4  6   9  4   k  0 9 4 4 9 y  36  4 x  24 4 required m   4 x  9 y  60  0 9
  • 25. (ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 y  x 6 y  4    x  6  6, 4  : 4  6   9  4   k  0 9 4 4 9 y  36  4 x  24 60  k  0 4 k  60 required m   4 x  9 y  60  0 9
  • 26. (ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 y  x 6 y  4    x  6  6, 4  : 4  6   9  4   k  0 9 4 4 9 y  36  4 x  24 60  k  0 4 k  60 required m   4 x  9 y  60  0 9  4 x  9 y  60  0
  • 27. (ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 y  x 6 y  4    x  6  6, 4  : 4  6   9  4   k  0 9 4 4 9 y  36  4 x  24 60  k  0 4 k  60 required m   4 x  9 y  60  0 9  4 x  9 y  60  0 To prove three lines (l, m, n) are concurrent;
  • 28. (ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 y  x 6 y  4    x  6  6, 4  : 4  6   9  4   k  0 9 4 4 9 y  36  4 x  24 60  k  0 4 k  60 required m   4 x  9 y  60  0 9  4 x  9 y  60  0 To prove three lines (l, m, n) are concurrent; (i ) solve l and m simultaneously
  • 29. (ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 y  x 6 y  4    x  6  6, 4  : 4  6   9  4   k  0 9 4 4 9 y  36  4 x  24 60  k  0 4 k  60 required m   4 x  9 y  60  0 9  4 x  9 y  60  0 To prove three lines (l, m, n) are concurrent; (i ) solve l and m simultaneously (ii ) substitute point of intersection into n
  • 30. (ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 y  x 6 y  4    x  6  6, 4  : 4  6   9  4   k  0 9 4 4 9 y  36  4 x  24 60  k  0 4 k  60 required m   4 x  9 y  60  0 9  4 x  9 y  60  0 To prove three lines (l, m, n) are concurrent; (i ) solve l and m simultaneously (ii ) substitute point of intersection into n (iii ) if it satisfies the equation, then the lines are concurrent
  • 31. (ii) Find the equation of the line passing through (6,4) and is perpendicular to 9x – 4y + 6 =0 OR 4x  9 y  k  0 4 9 y  x 6 y  4    x  6  6, 4  : 4  6   9  4   k  0 9 4 4 9 y  36  4 x  24 60  k  0 4 k  60 required m   4 x  9 y  60  0 9  4 x  9 y  60  0 To prove three lines (l, m, n) are concurrent; (i ) solve l and m simultaneously (ii ) substitute point of intersection into n (iii ) if it satisfies the equation, then the lines are concurrent Exercise 5D; 1e, 2c, 4abc (i), 5b, 7d, 9, 11, 13, 15, 17ab (i), 18ab (ii), 19, 22, 23c, 26*